Carbon Neutral Charter
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Foreword Nottingham City Council has responded to the climate and environmental crisis by setting an
ambition to become the first carbon neutral city in the UK by 2028. In keeping with Nottingham’s
proud tradition of climate leadership, this Charter sets out a vision for sustainable carbon neutrality
on behalf of the Council and the city’s Green Partnership. At the heart of this shared vision is an
approach that not only positively addresses wider environmental challenges, but improves quality
of life and builds a new form of clean growth for our economy through a green industrial revolution.
The science is clear; we need to act urgently to reduce our carbon emissions to limit global
temperature rise to below 1.5oC, and so prevent devastating impacts around the world and closer to
home. It also shows we need to prepare for a changing climate. Climate Change is a long-lasting and
universal problem that will affect everyone, particularly our most vulnerable citizens. It is also one
that the significantly impacts the young of today and for generations to come. We are the stewards
for the world they will inherit, and it is an essential role of local authorities to protect the security and
welfare of those citizens who depend upon us. We are continuing our work to create a prosperous,
fair and resilient city for this and future generations.
We have been at the forefront of what local authorities can achieve. The Nottingham Climate Change
Declarations and our current strategies for energy and climate change have driven forward our
progress and inspired others to do so. The actions we have taken have made a real difference to
people’s homes, businesses, transport and to the way the Council operates. We’ve met our 2020
energy strategy emissions target early of reducing CO2 emissions by 26% from 2005 levels. The most
recent figures from 2017 show a reduction of 41% for the city and 49% per person.
We believe the approach we are taking will bring multiple benefits to the citizens, businesses and
organisations of Nottingham. This Charter sets out the principles, priorities and definitions of this
approach, building on our previous successes and state-of-the-art knowledge. This is one of the most
important and complex challenges any society has faced, which is why the Council has taken it to the
core of how it operates, and why it is so pleased to be working with
Green Partnership members to provide a genuine city-wide response
that can engage and support everyone in the city to take action. We all
have a role to play in this, but we all have something to gain by finding
more sustainable ways to live and work. Together with city partners, we
will be creating new Climate Change and Energy plans for the next
decade, to help set in motion this ambitious work and turn words into
actions.
Whilst we rightly celebrate the success that Nottingham has had, we
know this is only the beginning. Together this Council, our partners and
citizens of this city can take forward the ambitions of a locally
responsible global city. There is a way forward on this vital issue, and we
believe that this Charter is something Nottingham can be proud of in
ensuring we are on the right track.
Councillor Sally Longford, Deputy Leader of the Council and Portfolio Holder
Energy, Environment and Democratic Services
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“As Chair of the Nottingham Green Partnership I strongly support the city’s ambitions and so fully
endorse this Charter and its unique vision for sustainable carbon neutrality. I am really pleased that
Nottingham is continuing its strong record of work on Climate Change and will continue to be a leading
city for sustainability. By bringing this vision to life as a partnership, we can help safeguard
Nottingham’s environment, economy and quality of life. This is an issue that is of the utmost
importance, touching upon every part of our lives, and with a role for
everyone. Through our partnership members, working together with citizens,
organisations and businesses, I hope that the Green Partnership can ensure
that this is very much a city-wide agenda and inspire action in our
communities. The Charter puts forward a comprehensive set of principles
through which the Green Partnership members can come together to make a
difference in a way that is credible, ambitious and coordinated. I am looking
forward to building upon this important milestone in Nottingham’s journey
to being carbon neutral and positively addressing the environmental crisis we
find ourselves in.”
Richard Barlow, Chair Nottingham Green Partnership
This Charter was written by Nottingham City Council on behalf of Nottingham’s Green
Partnership, with the support of its members and a range of stakeholders across the city.
This document was written and reviewed by Nottingham City Council: Jonathan Ward – Principal Energy Policy Officer Michael Suddens – Energy Policy Officer Ellen Cooper-Tydeman – Energy Policy Officer
Contact Details Jonathan Ward [email protected]
www.nottinghamcity.gov.uk/cn2028
mailto:[email protected]://www.nottinghamcity.gov.uk/cn2028
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Contents Foreword ...................................................................................................................................... i
Contact Details ............................................................................................................................ ii
Glossary of terms .................................................................................................................................... 1
Introduction ................................................................................................................................ 2
Nottingham’s Climate Impacts and the Need for Action .................................................................... 3
Nottingham’s Approach to Sustainable Carbon Neutrality ............................................................. 4
Living within our Limits ....................................................................................................................... 4
Strategic Plan ...................................................................................................................................... 5
Making Nottingham the UK’s First Carbon Neutral City ................................................................. 6
Progress and Past Actions ................................................................................................................... 6
Carbon Emissions Inventory................................................................................................................ 8
Nottingham’s Carbon Neutrality ................................................................................................... 9
Carbon Budgets ................................................................................................................................. 10
Carbon Reduction Pathways ............................................................................................................. 12
Scenarios and Gap Analysis ............................................................................................................... 14
Integrating Sustainability and Co-Benefits........................................................................................ 20
Monitoring, Analysis and Insight ...................................................................................................... 23
Climate Reporting ............................................................................................................................. 23
Strategies and Delivery .............................................................................................................. 24
Resilience and Climate Change Strategy ........................................................................................... 25
Energy Strategy ................................................................................................................................. 25
Local Transport Plan .......................................................................................................................... 25
The Way Forward: A Citywide Agenda for All .............................................................................. 26
Partnerships to Inform and Govern .................................................................................................. 27
Appendix 1. The Climate and Environmental Crisis ...................................................................... 28
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Glossary of terms1
1 https://archive.ipcc.ch/pdf/special-reports/srex/SREX-Annex_Glossary.pdf
1.5oC Temperature rise
This refers to the rise in the average global temperature above the pre-industrial period (pre-1750)
Adaptation Actions to reduce vulnerability to climate change impacts, reducing its effects on social, economic and natural systems
Biodiversity The variety of animal and plant life on Earth
Business as usual Future emissions trend if the current state of affairs continue as they are today
Carbon budget The maximum amount of carbon dioxide that can be emitted to be in line with keeping temperatures well below 2oC and pursue a 1.5oC limit to rising temperatures
Carbon dioxide (CO2)
A key greenhouse gas with a long-lifetime in the atmosphere and both natural and human sources.
Carbon neutral Having no net release of carbon dioxide into the atmosphere
Climate change The long term change of climate, typically measured over decades or longer. This is different to weather, which is now.
Climate emergency
Climate change presents the greatest threat to life: on the economy, social well-being and the natural environment
CO2e Carbon dioxide equivalence; this includes all greenhouse gasses converted into the equivalent amount of carbon dioxide.
Ecosystem Community of living organisms and the natural environment
Global warming Increase in temperature of the Earth’s atmosphere over long timescales, caused by increased levels of greenhouse gasses
Greenhouse gas (GHG)
The Earth can maintain a regular average temperature (about 15oC) despite heat leaving the planet’s surface because a layer of gases in the atmosphere absorb and release heat – a process known as the greenhouse effect. Greenhouse gases are those that have this effect, each with differing lifetimes and abilities to capture heat (infrared radiation).
MtCO2 Millions of tonnes of carbon dioxide
Planetary boundaries
The environmental limits of what the planet can sustain as result of human actions and other processes
Resilience
The ability of a system and its component parts to anticipate, absorb, accommodate, or recover from the effects of a hazardous event in a timely and efficient manner, including through ensuring the preservation, restoration, or improvement of its essential basic structures and functions
Sustainability Meeting the needs of current generations, without compromising future generations or the natural environment
https://archive.ipcc.ch/pdf/special-reports/srex/SREX-Annex_Glossary.pdf
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Introduction Climate change is a cause for concern across the world, following unprecedented increases in
greenhouse gas concentrations, rising global temperatures and increasingly severe weather events.
The year 2016 was the warmest year globally since records began in the mid-1800s, with the last four-
year period the warmest on record2. This has led to widespread protests and over 318 local councils
declaring a state of Climate Emergency3, following growing international and local concern for the
future of society and the natural world around us. In the UK this has been met with world leading
emission reduction targets both locally and nationally, such as the City of Nottingham’s ambition to
be carbon neutral by 2028.
Preparations must be made for changes in our climate and its indirect effects; protecting our
communities by becoming more adaptable, sustainable and resilient. This will involve actions at the
personal, household, community and city level, for all people, organisations and services. Nottingham
has decided to place its carbon neutral target firmly in the wider view of sustainability – you cannot
achieve one without the other and it presents an opportunity for positive change. The City must act
now, and prepare for a better, sustainable future. Our aim is to ensure Nottingham's Citizens will have
a high quality of life and well-being which can be sustained for current and future generations.
Sustainability, economic growth, elevating poverty and tackling climate change are all complementary
and interlinked. Nottingham must find new ways of doing things that can consider all these elements,
as business-as-usual is no longer an option. This offers an opportunity to tackle key issues facing the
city while simultaneously reducing the problems of inequality and maximising a range of benefits that
improve people’s quality of life. This would make Nottingham a fairer city and society for all. Actions
to remedy the challenges faced must not unfairly disadvantage people; particularly those who are less
able to pay or make changes themselves in order to maintain a good standard of wellbeing.
This document sets out a vision and outlines plans for tackling the complex task of making a
sustainable and carbon neutral city together. The role of the council is to offer leadership, partnership,
communication, planning/policy, signposting and provide skills that are all necessary to deliver the
scale of action required. A clear and positive vision is important to encourage action and build
enthusiasm for change; particularly when faced with challenges such as climate change. The city’s
Green Partnership4 has set out their vision for a future sustainable Nottingham:
2 https://blog.metoffice.gov.uk 3 https://climateemergencydeclaration.org/climate-emergency-declarations-cover-15-million-citizens/ 4 http://www.onenottingham.org.uk/?page_id=4952
This carbon neutral city is growing within the limits of what society, nature and the economy can
sustain. All citizens will have access to clean air and water; fresh, affordable and nutritious food,
and; quality blue and green spaces. Getting around the city is sociable and enjoyable; improving
mental and physical health and connecting people with nature and each other. Through being more
efficient and better managing its resources, the city is increasingly self-sufficient, making it more
resilient and productive. Goods are created, re-used, repaired and recycled locally, boosting local
enterprise. Citizens, research and enterprise are all involved in governing the city and looking to
continually improve how it operates. It is a truly global city, leading on sustainability and
recognised for its wellbeing and inclusiveness.
https://blog.metoffice.gov.uk/https://climateemergencydeclaration.org/climate-emergency-declarations-cover-15-million-citizens/
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Nottingham’s Climate Impacts and the Need for Action The local effects of a changing climate are seen already. Individual extreme weather events have affected, and will continue to affect the city independently of climate change, but climate change will increase their likelihood. Nottingham has to prepare for what may come and to be resilient to it. It is expected that there will be an increased severity and frequency of extreme weather events in years to come, fuelled by climate change from the emissions already released to the atmosphere. Urban areas, such as Nottingham, experience particular climate impacts and are more prone to events, such as heatwaves because of the ‘urban heat island’ effect. This is where heat is absorbed in surfaces like concrete during the day and slowly released at night5, leading to cities experiencing higher temperatures which can affect citizen wellbeing6, and increase water stress. In the future, there will be an increase in average daily temperatures, with warmer drier summers and warmer wetter winters. There will also likely be an increase in heatwaves, flood events, water shortages, food shortages, and a decrease in urban biodiversity. Locally and regionally, flood events are the most frequent severe weather event. Nottingham has experienced a number of flood events in its history, with the River Trent and its tributaries being the key sources historically. There is also surface-water and groundwater flooding. Surface water arises when there is too much rainfall for systems to cope adequately, often because of large areas of concrete or hard material surfaces that do not let water through. It is important that the city can become more resilient to these events, adapt to a changing climate, and effectively manage how water moves around and is supplied in the city. Regional records also indicate an increase in the frequency of heatwaves over the last decade. This summer saw record July temperatures across the UK approaching 40°C, with a new record in Nottingham of 36°C on Thursday 25th July7 (2019). Most recently a new record was set for the August Bank Holiday8. Overall, severe weather events have caused significant impacts, such as wide scale property and environmental damage, power cuts, impacts to human health, travel delays, lost working time, road closures and commercial losses. The impacts of climate change are often felt most acutely by more vulnerable people in society. The role of the Council and its partners is critical in helping protecting the most vulnerable members of society from the worst impacts of climate change, and in designing measures to reduce carbon that don’t worsen existing inequalities. This relationship with income and other characteristics creates a climate justice issue, particularly as those on lower incomes have historically emitted fewer carbon emissions. For the Council, along with other parts of the public sector, severe weather events and a changing climate effect the delivery of services, wellbeing and safety of staff, costs and protection of key buildings and infrastructure and a range of other impacts, as well as creating new forms of demand upon council resources.
5 https://www.nationalgeographic.org/encyclopedia/urban-heat-island/ 6 https://rmets.onlinelibrary.wiley.com/doi/full/10.1002/asl.896 7 https://www.nottinghampost.com/news/local-news/updated-figures-show-record-high-3137707 8 https://www.theguardian.com/uk-news/2019/aug/26/uk-weather-temperature-record-set-late-august-bank-holiday-monday
https://rmets.onlinelibrary.wiley.com/doi/full/10.1002/asl.896https://www.nottinghampost.com/news/local-news/updated-figures-show-record-high-3137707https://www.theguardian.com/uk-news/2019/aug/26/uk-weather-temperature-record-set-late-august-bank-holiday-monday
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Nottingham’s Approach to Sustainable Carbon Neutrality
Living within our Limits Nottingham’s approach is to put climate action at the heart of a wider sustainability vision that delivers
for people and planet. Delivering carbon neutrality through a narrow carbon only perspective would
create the risk of interventions and policies that at best missed out on opportunities to deliver other
city objectives, and at worst, had negative impacts upon certain groups of people, the economy and
the wider environment. Climate change is linked to many other sustainability issues connected to
food, water, land-use, energy for homes and transport, consumption and production.
Collective action should allow society to develop sustainably through meeting the needs of people, delivering internationally agreed Sustainable Development Goals and remaining within what the planet can provide to us. This includes safeguarding the Earth’s life-supporting systems on which we depend. Many of these systems are already stressed, reaching limits known as planetary boundaries. Climate change is one of these, and the most pressing concern of the 21st Century. Pushing these boundaries beyond their natural limit puts pressure on the safe space for humanity to thrive. There is a need to balance our environmental sustainability with providing what people need for a good quality of life, in an affordable and just manner. Linking the two is the requirement for societies to be ‘better prepared for the consequences of environmental breakdown’9. This means creating a more resilient Nottingham that prevents the worst of the impacts that are likely to come, directly and indirectly, from issues like climate change, as well as being adaptable to continue to thrive in new conditions. This balancing act, to create a safe space for society to operate, has been represented by the ‘Doughnut’ model of environmental economics described by the economist Kate Raworth (Figure.1). This is why Nottingham has chosen to measure its progress with the UN’s Sustainable Development Goals - described in more detail later in the document. Sustainable development is the logical, as well as responsible approach, for any city to provide a good quality of life and opportunity for its citizens and organisations for current and future generations. The aim is to create an approach where the future of Nottingham places equal importance across people, the environment and the economy, while at the same time supporting Nottingham’s ambition to be carbon neutral by 2028.
9 https://www.ippr.org/research/publications/rethinking-economics-for-the-age-of-environmental-breakdown
Figure 1. Doughnut economics model https://www.kateraworth.com/doughnut/
https://www.ippr.org/research/publications/rethinking-economics-for-the-age-of-environmental-breakdownhttps://www.kateraworth.com/doughnut/
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Strategic Plan The process shown below enacts the strategic approach and the development and refinement of the
Energy and Climate Change strategies. A continuous cycle will involve many different stakeholders in
the development and delivery of the plans. The carbon budget helps put the city’s performance into
context along with the inventory of the emissions.
The next step is the refinement of the pathways to carbon reduction, understanding where and how
emissions need reducing. This allows the creation of scenarios of different types of intervention and
an analysis of where there are gaps. From here the interventions identified in the scenarios will be
considered using a co-benefits approach to bring more value to the city and to ensure the
sustainability agenda is delivered. Finally, the interventions and delivery are monitored and analysed.
The resulting insight is given and shared, helping refine the plans before the cycle repeats. The city
will be disclosing its reporting through international frameworks to be transparent and benefit from
the additional insight that this can bring. Engagement, collaboration and co-creation sits at the heart
of this process, playing a vital role throughout. The city faces a unique challenge, one that requires a
unique response.
Figure 2. Nottingham’s approach to developing new strategies for sustainable carbon reduction
2028 Resilience & Climate
and Energy Strategies
Review Progress and
Actions
Carbon Emissions Inventory
Carbon Budget
Carbon Reduction Pathways
Scenarios and Gap Analysis
Sustainability and
Co-Benefits
Monitoring Analysis &
Insight
Climate Reporting
Engagement,
Collaboration and
Co-Creation
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Making Nottingham the UK’s First Carbon Neutral City Nottingham City Council has taken the ambitious aim of becoming the first UK carbon neutral City,
setting itself the target to achieve this by 2028. The Council has been a leader amongst local
authorities for action on climate change, in sustainability and innovation in energy work.
Progress and Past Actions
For the last 19 years, since the Nottingham Climate Change Declaration10 onwards, the city has showed
a proactive approach and commitment to climate change, alongside the development of key strategies
for Climate Change, Energy, Transport and Fuel Poverty. These have been key drivers of Nottingham’s
success in reducing emissions, acting on climate change and enhancing the city’s resilience.
Nottingham has already made significant progress towards cutting its carbon emissions (Figure.3) by surpassing its 2020 target of reducing CO2 emissions by 26% by 202011 (compared to 2005). In 2017, Nottingham had managed to reduce total CO2 emissions by 41% (49% reduction in per person emissions) from 2005. This was achieved, through considerable emission reduction actions across industrial/commercial, transport and domestic sectors. Nottingham’s recent figures for carbon dioxide are shown in Figure 3. They show that the city’s emissions have been falling steadily, with most of the reduction taking place in industry and commerce (down 56%), followed by the domestic sector (down 38%) since 2005. The total CO2 emissions for Nottingham in 2017 from government figures12 were 1,171,364 tonnes, which equates to 6 billion miles driven by the average new car in the UK13.
10 https://webarchive.nationalarchives.gov.uk/20081201055944/http://www.energysavingtrust.org.uk/nottingham/Nottingham-Declaration/Why-Sign/About-the-Nottingham-Declaration 11 Nottingham Energy strategy (2010 to 2020) https://www.nottinghaminsight.org.uk/research-areas/nottingham-key-strategies/ 12 https://data.gov.uk/dataset/723c243d-2f1a-4d27-8b61-cdb93e5b10ff/emissions-of-carbon-dioxide-for-local-authority-areas 13 https://www.theguardian.com/business/2018/feb/27/co2-emissions-from-average-uk-new-car-rise-for-first-time-since-2000
https://webarchive.nationalarchives.gov.uk/20081201055944/http:/www.energysavingtrust.org.uk/nottingham/Nottingham-Declaration/Why-Sign/About-the-Nottingham-Declarationhttps://webarchive.nationalarchives.gov.uk/20081201055944/http:/www.energysavingtrust.org.uk/nottingham/Nottingham-Declaration/Why-Sign/About-the-Nottingham-Declaration
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The city is also on track to meet the target of generating 20% of the City’s energy demand through low and zero carbon sources by 202014. This success stems from the successful implementation of key strategies and through our partnerships with local businesses, universities and other local authorities, enabling many forward-thinking carbon reduction actions to take place. Annual progress in emission reductions is not
always smooth on a year-by-year basis due
to seasonal differences between years. For
instance, in cooler periods there is an
increases demand for heating which increase
the total emissions for that year. Warmer
winters however, mean there is less heating
demand and coincide with the years where
there is the largest reduction in emissions,
meaning despite actions to reduce emissions
we will always be affected by variations in
the natural climate.
14 Nottingham Energy strategy (2010 to 2020) https://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&ved=2ahUKEwjf_trT45PkAhWGLFAKHeAcC50QFjAAegQIABAC&url=http%3A%2F%2Fdocuments.nottinghamcity.gov.uk%2Fdownload%2F3497&usg=AOvVaw0e_b-PQzK2-YyMUIJD3BD8
Figure 3. Nottingham city area CO2 emissions breakdown (Source: BEIS 2019)
Key Actions:
Our low-carbon District Heat Network now
supplies heat to over 5000 homes and
businesses
Carried out over 40,000 energy efficiency
improvements to local homes
Established a 100% renewable not-for-
profit energy company Robin Hood Energy
Introduced one of the UK’s largest electric
bus fleets and the world’s largest biogas
bus fleet, alongside our 20-mile electric
tram network. This was supported by the
introduction of the Work Parking Levy,
which discourages driving to work where
possible, and has helped finance more
sustainable transport options.
These actions have not only contributed to
the success of Nottingham’s emission
reductions but have helped to alleviate fuel
poverty, improve air quality, improve
human wellbeing and quality of life, whilst
developing a green, clean sustainable
economy and community.
-
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
0
500
1,000
1,500
2,000
2,500
2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017
Per
Cap
ita
CO
2em
issi
on
s (t
on
nes
)
CO
2Em
issi
on
s (0
00
's t
on
nes
)Carbon Dioxide Emissions per Sector
Industry and Commercial Domestic Transport Per Capita
https://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&ved=2ahUKEwjf_trT45PkAhWGLFAKHeAcC50QFjAAegQIABAC&url=http%3A%2F%2Fdocuments.nottinghamcity.gov.uk%2Fdownload%2F3497&usg=AOvVaw0e_b-PQzK2-YyMUIJD3BD8https://www.google.com/url?sa=t&rct=j&q=&esrc=s&source=web&cd=1&ved=2ahUKEwjf_trT45PkAhWGLFAKHeAcC50QFjAAegQIABAC&url=http%3A%2F%2Fdocuments.nottinghamcity.gov.uk%2Fdownload%2F3497&usg=AOvVaw0e_b-PQzK2-YyMUIJD3BD8
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Carbon Emissions Inventory Carbon dioxide and other greenhouse gas emissions come from a variety of sources. Some are
naturally occurring processes, and others from activities in our homes, transport and businesses.
Carbon emissions, especially those that we can measure, generally come from the use of energy for
heating, vehicles, motors, machinery and appliances. Some of these, like traditional cars or gas boilers,
have direct emissions from the burning of fossil fuels. Others have them through the use of electricity
from the grid.
Government data shows what kind of energy is consumed in Nottingham - principally gas (47%), petrol
products (28%) and electricity (24%)15. Each energy source will have a different carbon intensity and
footprint, meaning the emissions from some sources, such as coal, are worse than others. The true
picture of carbon and greenhouse gas emissions in any city is wider than the description above. There
are emissions involved in the lifecycle of products, and the infrastructure that delivers energy and
products to us.
Nottingham’s Greenhouse Gas Emissions (tonnes CO2e) Scope 1 Scope 2 Scope 3
Net Total Per
Capita
Stationary Energy1 467,203 432,286 146,982
Transport (City)1 309,029 889
Waste1 46,906
Aviation1 172,934
Imported Consumption2 1,756,384
Total 823,138 432,286 2,077,189 3,332,613 10.1 1 Emissions are from the SCATTER inventory tool and reported as CO2 equivalences www.scattercities.com 2 Imported consumption emissions have been calculated based on a per capita allocation of data from https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/794557/Consumption_emissions_April19.pdf Scope 1 emissions are from direct actions of a city, Scope 2 emissions relate to purchased electricity and heating/cooling used in the city but purchased from outside the city, whilst Scope 3 emissions are all other indirect emissions from activities and their lifecycles, such as procurement, waste disposal and investments
Detailed information about the key
emissions from the main sources are
shown in the table above and pie chart
(Figure.4). These emissions include
imported consumption emissions, which
is the carbon locked into the goods, food
and services we consume from around
this country and the world. These are very
hard to measure locally, but we can make
an estimate for Nottingham from UK
figures. It shows that these often hidden
emissions make up around half of our
emissions footprint overall, followed by
industrial/commercial and residential
building emissions.
15 https://www.gov.uk/government/statistical-data-sets/total-final-energy-consumption-at-regional-and-local-authority-level
Figure 4. Scope 1 to 3 greenhouse gas emissions for Nottingham, split by source
Residential Buildings
15%
Industrial and
Commercial Buildings
17%
Transport (City)
9%
Aviation5%
Waste1%
Agriculture0%
Grid Supplied Energy Generation
0%
Imported Consumption
53%
Nottingham's Greenhouse Gas Emissions by Source
http://www.scattercities.com/https://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/794557/Consumption_emissions_April19.pdfhttps://assets.publishing.service.gov.uk/government/uploads/system/uploads/attachment_data/file/794557/Consumption_emissions_April19.pdf
9
At the local level, in 2016, Nottingham City Council’s operational CO2 emissions16 were mainly from
electricity (38%) and gas (24%) use in buildings, street lighting (18%), and fleet (13%), of which
emissions from diesel vehicles account for 89%. These are all classed as Scope 1 or 2 emissions (direct
emissions). The Council’s operational emissions account for 2.7% of the city’s carbon emissions. This
is likely to be a lower limit, due to not including emissions from waste produced by council buildings
and operations, or emissions from employee commuting.
The Council has always played its part in reducing its own emissions as part of the wider city emissions
targets. In 2016, Nottingham City Council had seen a 29.5% reduction in its own emissions compared
to 2007. The greatest progress has come from significant emission reductions in street lighting (40%),
gas (34%) and electricity (19%), and from the complete removal of coal and oil consumption, whilst
subsequently increasing our connections to our low-carbon District Heat Network. Further to this,
emissions from business travel have reduced by 70% since 2007/8, highlighting the Council’s ambition
to reduce emissions across all scopes and sectors. In reducing the council’s carbon emissions, we have
also saved money, generated income and delivered on our climate and sustainability objectives.
Nottingham’s Carbon Neutrality Nottingham has chosen to focus its ambition on Carbon Dioxide (CO2), which is the primary driver of
long-term global warming17. Other greenhouse gasses (e.g. methane) are acknowledged, which under
Committee on Climate Change guidance should be at least stabilised alongside reducing CO2 to net-
zero. Setting a 2028 target not only prioritises that Nottingham stays well below its carbon budget to
pursue a 1.5oC limit to warming but it also sets the standard for other cities as they consider their own
pledges, making Nottingham a leading city in climate action. Through instigating concerted action
sooner, it provides the best chance for the city of making this challenging transformation.
The target covers direct and indirect energy related CO2 emissions, referred to as Scope 1 and 2. It
does not cover Scope 3 or imported emissions. This is for several reasons, including:
Ability to monitor and measure effectively
Alignment with the local carbon budget model embedded
Ability to influence and shape sources of emissions directly
16 NCC operational emissions include energy and water in all owned and managed buildings and local authority controlled schools, street lighting energy consumption, council vehicle fleet and business travel 17 https://www.ipcc.ch/sr15/
The City Council is also very much part of the city target, but the Council will address
wider greenhouse gases in the form of a CO2e target for scope 1 and 2 (and scope 3
where possible) emissions for our estate, consumption, travel and services. Some of
these emissions may occur outside of the city boundary. As with the city target, the
Council will consider wider embodied emissions in its internal policy to affect those
emissions outside of the main target.
Nottingham is aiming to become a carbon neutral city by 2028,
meeting this target by reducing all carbon dioxide emission from
direct and indirect energy use to net-zero.
https://www.ipcc.ch/sr15/
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Carbon Budgets A carbon budget provides an indication of the maximum cumulative amount of carbon dioxide that can be emitted to the atmosphere through human actions, between 2020 and 2100, to be in line with keeping global temperature rise well below 2oC and pursuing efforts to limit to 1.5oC rise by the end of the century18. A carbon budget of this type is not a financial scheme or a limit or cap given to individual persons or organisations. Carbon budgets can be explained using a bathtub analogy19 (Figure.5), where everything contained within the tub represents the amount of CO2 in the atmosphere, the tap feeding into the bath is the amount of CO2 added to the atmosphere by human activity and the taps draining the bathtub represent actions that remove CO2 from the atmosphere. The carbon budget is the level to which the bath can hold these emissions, if more is added than removed the level in the bath would rise and then it would overflow. If this happened in the atmosphere, there would be enough CO2 in the atmosphere to cause an increased risk of global temperatures reaching dangerous levels.
A carbon budget is needed to ensure that global CO2 emissions do not collectively go beyond the level that would increase the risk of global temperatures reaching dangerous levels. Large-scale global action is needed to achieve this, right down to local level. This means Nottingham must abide by this budget and ensure that its emissions fall below its appropriate share of this global carbon budget. This is part of a sustainable approach to carbon neutrality, one where there is a fair and just share of responsibility. The carbon budget shapes the rate at which we need to decrease emissions each year. Analysis of the national picture has suggested that if nationally we were to plot a straight line pathway to zero from today, the target date would have to be 2025 to avoid exceeding the available carbon budget20. This stresses the importance of acting to cut emissions deeper and sooner to give the best possible chance of avoiding dangerous levels of climate change.
18 https://carbonbudget.manchester.ac.uk/reports/E06000018/ 19 https://wattsupwiththat.com/2019/01/18/climate-change-how-could-artificial-photosynthesis-contribute-to-limiting-global-warming/ Credit: M. May/HZB https://www.eurekalert.org/multimedia/pub/190395.php 20 https://www.cusp.ac.uk/themes/aetw/zero-carbon-sooner/
Figure 5. Explanation of carbon budgets using a bathtub analogy19
https://www.eurekalert.org/multimedia/pub/190395.phphttps://www.cusp.ac.uk/themes/aetw/zero-carbon-sooner/
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Nottingham’s Carbon Budget
Through working with a tool designed to give a localised carbon budget, an illustrative carbon budget
for the city of Nottingham suggests we have an allowance of:
7.7 million tonnes of carbon dioxide (MtCO2) for the period 2020 to 2100.
If Nottingham were to continue as it has done so over the last 12 years, with an annual emissions
reduction trend of 4.16%, this budget would be completely exhausted during 2028.
Already, by the end of 2019, Nottingham will have cumulatively emitted three times this remaining
carbon budget (since 2005) and if we continue on this trend, by 2050 we would have added 2.3 of our
allocated carbon budgets to the atmosphere (2020 to 2050).
This demonstrates the urgent need to reduce carbon emissions due to the small window of opportunity before the carbon budget is exceeded, contributing to an increased risk of dangerous warming. The sooner we act, the longer this carbon budget will last and the more CO2 prevented from entering the atmosphere. Reduction of every tonne of CO2 counts, no matter where it is emitted.
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Figure 6. Nottingham’s historic cumulative emission period, allocated carbon budget and overshoot of emissions 2005 to 2050
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Carbon Reduction Pathways Nottingham’s future carbon budget demonstrates the importance of pursuing our commitment to
become a carbon neutral city by 2028.
The graph below outlines illustrative scenarios which would meet the City’s ambition, in comparison
to the trend in emissions if Nottingham was to continue as it has done so over the last 12 years.
A delayed reaction to emissions reduction would mean emissions continue along the business as usual
path, slowly increasing in scale of emission reductions year on year, becoming more rapid as we get
closer to 2028. This would allow time for a more gradual implementation of emission reduction
actions. However, this method puts pressure on later years and has a greater risk of overshooting the
2028 commitment by allowing more time for inaction and may even risk surpassing Nottingham’s
carbon budget.
Instead, Nottingham will place a greater emphasis on reducing emissions as quickly as possible to
increase the chance of staying within our carbon budget and meeting the 2028 carbon neutral
ambition. To do this, emission reduction rates would have to be in excess of 22.3% per year. This is
the rate of emissions reduction required each year to reduce emissions to the point when cumulative
emissions up to 2100 remain below 5% of Nottingham’s carbon budget, and acknowledges the
technical challenges behind removing all emissions.
Negative emissions technologies and offsetting could be used to neutralise remaining emissions.
However, Nottingham should aim to reduce emission beyond 22.3% annually to be in with the best
chance of meeting the 2028 commitment.
Figure 7. Illustrative emission reduction pathways to meet the 2028 commitment
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The below graph (Figure.8) demonstrates that under Nottingham’s current emission reduction trend,
cumulative CO2 emissions to 2100 would be in excess of 24 MtCO2, which is over three times
Nottingham’s carbon budget.
The minimum annual emission reduction (22.3%) Nottingham must meet in order to be on track to
carbon neutrality in 2028 would limit these cumulative emissions to below 3.7 MtCO2. This would
require a reduction of 240,000 tonnes of CO2 in 2020, equivalent to almost all direct emissions from
residential buildings in Nottingham.
If Nottingham was not to meet its 2028 carbon neutral commitment the chance to limit its share of
emissions in line with pursuing a 1.5oC future will not have passed. The minimum required CO2
reduction rate to stay below Nottingham’s carbon budget, through until the end of the century, is
12.5% each year, from 2020 onwards. This would require a reduction of 135,000 tonnes of CO2 in
2020, equivalent to half of the residential building direct CO2 emissions.
The importance here is the urgency in the need to act to reduce Nottingham’s emissions. Delaying
action by just one year means the minimum 12.5% annual reduction to remain below Nottingham’s
carbon budget becomes 13.5% and the 22.3% annual reduction to achieve the commitment becomes
24.3%. This highlights that the time to act is now, the longer we delay the greater the effort needed
in the following years.
A more refined set of scenarios and modelling will appear in the forthcoming Energy and Resilience
and Climate Change Strategies.
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Figure 8. Illustrative CO2 emission footprint of pathways
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Scenarios and Gap Analysis This Charter has reviewed the current progress in carbon reduction and past actions/strategies that
have contributed to Nottingham’s success, as well as provided an analysis of Nottingham’s carbon
inventory, fair and just carbon budget, and illustrative carbon reduction interventions. The next step
for Nottingham is to work towards developing in-depth scenarios of how the 2028 carbon neutral
commitment could be achieved, through creating a detailed and well informed action plan. This will
enable easy wins and key gaps to be identified, which will require widespread stakeholder
engagement and consultation, which will contribute to the new Energy and Climate Change Strategies.
Carbon Sequestration and Offsetting Nottingham’s carbon budget currently assumes that we won’t be using technologies to remove CO2
from the atmosphere or using large scale carbon offsetting. Theoretically, if these technologies were
to become widely available and used, Nottingham’s carbon budget would become bigger. However,
it is important that Nottingham does not assume this and use a bigger budget before these
technologies are proven, otherwise we risk contributing to a warmer world.
Localised carbon offsetting can be implemented. For example, it is recommended that Nottingham
increase the capture of CO2, in a process called sequestration, through tree planting, forestry yield
improvement and management21. This would allow Nottingham to offset emissions elsewhere in the
city, helping to achieve our carbon neutral commitment.
Carbon Rebound It is important to acknowledge the rebound effect that may occur when acting to reduce carbon
emissions as it will have an impact on Nottingham’s progress of reducing emissions and energy
demand both directly and indirectly. We must take into account the time lag that exists between
implementing actions, such as energy efficiency measures, and the time it then takes for a rebound to
take effect. For example, an action to improve energy efficiency could increase energy use elsewhere
through additional activities as a result in an increased disposable income, due to cheaper utility bills.
This will be monitored throughout the delivery of the 2028 target.
Priorities Areas for Carbon Emissions Reduction The technologies and approaches to deliver a net-zero world are believed to be available already, and
with strong leadership could be implemented at a cost effective level (1-2% UK GDP)22. Not only would
this help tackle climate change, citizens will see an improvement in their everyday lives with their
health, diets, cleaner air and new economic opportunities from clean, green growth.
Using tools, such as SCATTER23 which the Council is helping to develop, the depth and breadth of
carbon reduction interventions required to get to carbon neutral will be identified. This will provide
examples of the scale of action needed to become carbon neutral and how much carbon can be saved
by interventions if they were to be rolled out across the city.
Ultimately, for the city to meet the carbon neutral aspiration, there needs to be clean energy sources,
better energy behaviours, more efficient products and buildings, alongside an overall reduction in the
demand for energy.
More details on priority interventions will be set out in the forthcoming Energy and Climate Change
Strategies for Nottingham, including plans for those emissions that are not part of the carbon target.
21 Tyndall Carbon Budget Tool https://carbonbudget.manchester.ac.uk/reports/E06000018/ 22 https://www.theccc.org.uk/publication/net-zero-the-uks-contribution-to-stopping-global-warming/ 23 www.scattercities.com
https://www.theccc.org.uk/publication/net-zero-the-uks-contribution-to-stopping-global-warming/http://www.scattercities.com/
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Set out below are the key areas for action towards the targets that need to start being addressed in
plans and policies:
Decarbonising Electricity Since 2010, the UK electricity national grid CO2e conversion figures have decreased by 47%24. These
are expected to continue to decrease as the mix of electricity sources nationally become lower carbon,
with increased generation from renewable sources such as wind and solar. Nottingham has been
active in helping to decarbonise electricity; the best estimate of the percentage ratio of the available
local energy generation from low-carbon sources provided to local domestic and non-domestic
demand, covering heat and electricity, is 21%25. By March 2019, over 6,200 solar PV installations had
been deployed across the city, covering 4.5% of domestic properties, with an installed capacity of
21MW. Moving forward, Nottingham should continue to increase its local renewable generation, with
a particular focus on small-scale solar PV combined with energy storage. The city will continue to
participate and lead on innovative solutions to energy generation and look to have a range of sources
in place including energy from waste, wind, sewage, water, land and movement.
Decarbonising Transport To achieve the 2028 carbon neutrality ambition, it will be necessary to almost entirely replace existing
fossil-fuel based Internal Combustion Engine (ICE) vehicles with what are termed Ultra-Low Emissions
Vehicles (ULEVs). The majority of these ULEVs will need to be electric vehicles, with the remainder
likely to be fuel-cells or other variants. This would immediately benefit the city’s carbon target.
Considering the wider emissions not included in the main target, there have been concerns around
the impact of the total lifetime footprint of new electric vehicles due to manufacturing, particularly of
their batteries. However, recent research suggests that the lifetime carbon emissions of ULEVs are
half those of a conventional vehicle, with more efficient electric vehicles saving on the carbon
produced in the batteries in just two or three years26. Out of the 108,000 vehicles registered in
Nottingham, there are only 458 ULEVs, less than 0.5% of the total27. Whilst there won’t be the same
number of ULEVs required as today’s current number of vehicles, the scale of this change is still
enormous.
In addition to the electrification of privately owned cars, a large shift away from the use of single
occupancy car trips towards public transport will be required. Nottingham City Council has historically
pursued policies that encourage the use of public transport together with walking and cycling. Policies
such as the introduction of the Workplace Parking Levy has enabled the construction of a tram
network in the city as well has investment in a high quality, high frequency bus network. These policies
have resulted in a rising number of people using public transport and despite a rising population, traffic
volumes in Nottingham have remained static for several years.
24 https://www.gov.uk/government/collections/government-conversion-factors-for-company-reporting 25 This uses a range of BEIS data released in 2019 for 2017 Consumption, and 2018 datasets were available for renewable generation. https://www.gov.uk/government/publications/sub-national-electricity-and-gas-consumption-statistics-analysis-tool, https://www.gov.uk/government/statistics/regional-renewable-statistics 26 https://www.drax.com/press_release/ev-battery-emissions-offset-by-lower-carbon-electricity-system/ 27 https://www.gov.uk/government/statistical-data-sets/all-vehicles-veh01
https://www.drax.com/press_release/ev-battery-emissions-offset-by-lower-carbon-electricity-system/https://www.gov.uk/government/statistical-data-sets/all-vehicles-veh01
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Department of Transport statistics from the National Road Traffic Survey estimates annual mileage
driven on Nottingham’s roads has increased by 4.3% since 2012 to 0.97 billion miles in 201828. This
represents 0.3% of the total vehicle miles driven on Great Britain’s roads in 201829.
During this time, Nottingham’s population has increased by 7.2%30, and the number of bus passenger
journeys has decreased by 3.8%31, however tram passenger journeys has increased by 97.8%32.
Overall, the number of public transport passenger journeys have increased over the last five years.
Based on the historic trend, a projected 4.15% population growth between 2020 and 202833, could
result in an increase of 2.5% in road vehicle miles. To help achieve the 2028 commitment, Nottingham
must continue to shift towards an increased use of public transport but reduce road vehicle miles,
alongside an increased use of low carbon modes of transport.
Decarbonising Heating and Cooling Space heating is the largest contributor to domestic CO2 emissions, currently 294,000 tonnes of CO2
for domestic space heating and hot water is emitted by domestic properties in Nottingham. This
accounts for 25% of Nottingham’s 2017 CO2 emissions and demonstrates that there will have to be a
shift in the way we heat our homes, away from the 84% of households currently heated by gas,
towards low carbon electric, heat networks and heat pumps.
Reducing and changing Consumption and Waste In 2018-19, 113,000 tonnes of household waste was produced by Nottingham, of which 26.5% was re-
used, recycled or composted, 64.5% was sent for energy recovery; and 7.0% was sent for landfill. Since
2016-17, the mass of household waste re-used, recycled or composted has decreased by 10.6%, waste
sent to landfill over the same time period has decreased by 19%, whilst waste sent for energy recovery
has increased by 9%. Meanwhile, the overall total amount of household waste collected between
2016/17 and 2018/19 has remained broadly consistent. As Nottingham transitions to a more
sustainable society, the recycling rate will have to increase and landfill decrease even further,
alongside a reduction in the total amount of household waste. This will require changes to processes
and physical infrastructure, as well as city wide behavioral changes to disposal, sharing, shopping and
dietary habits. Food and drink has a big impact on wider and imported emissions. Areas for reducing
emissions include reducing meat and dairy and increasing plant-based meals; reducing food miles,
and; sourcing from less energy intensive forms of farming and production.
28 https://roadtraffic.dft.gov.uk/local-authorities/188 29 https://roadtraffic.dft.gov.uk/summary 30https://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationprojections/bulletins/subnationalpopulationprojectionsforengland/2014-05-29 31 https://www.gov.uk/government/statistical-data-sets/bus01-local-bus-passenger-journeys 32 https://www.gov.uk/government/statistical-data-sets/light-rail-and-tram-statistics-lrt 33https://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationprojections/datasets/localauthoritiesinenglandtable2
Nottingham 2011/12 2017/18 % Increase
Population 309,000 331,100 people 7.2%
Bus passenger journeys
49.6 47.7 million journeys
-3.8%
Tram passenger journeys
9.0 17.8 million journeys
97.8%
Road vehicle miles 0.93 0.97 billion miles 4.3%
https://roadtraffic.dft.gov.uk/local-authorities/188https://roadtraffic.dft.gov.uk/summaryhttps://www.gov.uk/government/statistical-data-sets/bus01-local-bus-passenger-journeyshttps://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationprojections/datasets/localauthoritiesinenglandtable2https://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationprojections/datasets/localauthoritiesinenglandtable2
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Reducing Demand for Energy From 2005 to 2016, energy demand in the city has decreased by 26% to 5042 GWh34. This is due to
industry and commercial energy demand decreasing 35.5%, domestic by 26.3% and transport energy
demand by 8.9%. Overall, gas demand has decreased by 35% and electricity demand has decreased
by 22%. However, in 2016, gas consumption still accounts for 47% or 2347 GWh of total energy
demand (61% for domestic use and 39% for industrial and commercial use). Though
industry/commercial and domestic sector energy demand is decreasing, their gas use accounts for
almost half of total energy consumption in Nottingham. In the coming decade, Nottingham will have
to reduce gas consumption, and replace its usage with lower carbon alternatives, as well as improve
the efficiency of products, buildings and vehicles to reduce the demand for energy.
Improving the Energy Efficiency of Housing and Commercial Buildings Nottingham’s current housing stock poses a key challenge to tackle in our approach to sustainable
carbon neutrality. There are 135,000 homes in Nottingham, many of which were built pre-1980 and
over 58.2% are below an EPC rating of C35, which is the national target for homes to be at by 2030.
Moving forward, significant improvements must be made to Nottingham’s housing stock, which will
require a sustained level of household retrofits. In addition, there will be an estimated 9,400 new build
homes by 2028, which should be built to the highest possible standards and be climate smart in their
design. Nottingham’s non-domestic property stock also poses a challenge, which currently consists of
8480 properties36. Over 69% are below an EPC rating of C and currently 47% of non-domestic
properties are heated by natural gas36. These are on average 2.6 times the size of properties heated
by grid-supplied electricity36. Significant new development is expected to take place at the Boots site,
Southside and Eastside Regenerations Zones, and the Eastcroft area of the Waterside Regeneration
Zone, which should also be climate smart and done to a high energy efficiency and carbon standard.
Within Nottingham City Council It is essential the Council prioritises reducing emissions from electricity and gas use in buildings, street
lighting and fleet. The Council will be creating its own internal plan in 2020 to meet its own targets
through its award winning Energy Services. This plan will put in place new monitoring to ensure the
Council prioritises programmes based upon emission data. Current programmes of work around
invest-to-save energy efficiency projects will be continued, using the Buildings Charter and behaviour
change to support physical and system changes. The Council will also continue to roll-out renewable
energy generation to ensure the Council consumes and provides clean energy. The Council already
has a nationally leading approach to its fleet vehicles, and this work will continue to make the fleet
increasingly electric, also improving air quality. Other priorities include tackling the wider scope of
emissions through better procurement, changes to catering, and the Council’s single-use plastics free
pledge. It is vital that the Council’s non-Nottingham emissions are also addressed, for example flights.
34 https://www.gov.uk/government/statistical-data-sets/total-final-energy-consumption-at-regional-and-local-authority-level 35 https://epc.opendatacommunities.org/ 36 https://www.ons.gov.uk/businessindustryandtrade/business/activitysizeandlocation/datasets/ukbusinessactivitysizeandlocation
Domestic Housing Stock EPCs
EPC A B C D E F G
Percentage of Stock 0.4% 8.1% 33.4% 38.7% 16.1% 3.0% 0.4%
Non-Domestic Building EPCs
EPC A+ A B C D E F G
Percentage of Stock
0.76% 0.02% 6.67% 24.00% 32.77% 20.76% 7.68% 7.34%
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The Council’s own housing provider, Nottingham City Homes, has a significant role to play, but has
already made huge strides with a nationally recognised approach to whole-house retrofit and
innovation to benefit residents and environment alike.
Key Challenges The city is expecting population growth in the region of 13,000-14,000 citizens between 2020 and
202837. Existing plans for the city have already suggested an increase in homes for this period of over
9,000 dwellings. With every new home and each new citizen in the city, there are further requirements
for transport, infrastructure and services. The City is also planning to grow its economy, which pushes
up demand for resources and energy. Nottingham’s carbon reduction target and sustainability
aspirations must consider and address the impact of these challenges. For an absolute reduction in
carbon emissions the rate per person must decrease at a faster rate as population increases. The same
applies to a growing economy. This effectively increases the total decarbonisation requirements for
the city.
There is the additional challenge of creating a new relationship between wellbeing and consumption. There is currently a correlation, to a certain point, of wellbeing increasing with affluence and consumption. After that point, it fails to rise further, known as the Wellbeing-Consumption Paradox38. Alongside this, research has found that there tends to be a decline in life satisfaction in countries where there is no growth in incomes or carbon footprint38, which should be acknowledged in the forthcoming strategies. Additional challenges to achieving the required level of carbon reduction include achieving wide scale behavioural change across the city, investment in new technologies and processes, alongside overcoming significant technological hurdles. Clean Growth and a Sharing, Efficient economy Nottingham’s economy will change; existing businesses will become more sustainable and low carbon,
and a growing new sector will appear to meet the demand for the products and services to assist with
this transformation. Nottingham is looking to position itself to be able to build its capacity to deliver
the demand to transform the city. This will mean thousands of new jobs, retraining of countless more,
investing in skills and offering young people new types of high-quality careers. This Clean Growth
Economy offers one of the best ways for the city to benefit from its sustainability ambitions, as being
able to deliver what is needed here, will allow the city to export its strategies nationally and further
afield as areas tackle the challenge of a carbon neutral future. The Committee on Climate Change have
suggested the low carbon economy could grow 11% per year through to 2030, five times the rate
projected for the rest of the economy39, highlighting the significant opportunity to grow Nottingham’s
economy.
It is essential that the city explore new business models to transform the way enterprise operates to
decouple carbon intensity from economic output and growth, whilst remaining competitive in wider
markets. This requires a long view on investment, working across traditional sector boundaries and
using new techniques in green financing. Businesses are already taking steps towards sustainability,
and there are a range of support programmes that are helping businesses to improve their efficiency
profitability and productivity and reduce carbon, resources and costs.
37https://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationprojections/datasets/localauthoritiesinenglandtable2 38 https://goodlife.leeds.ac.uk/paradox/ 39 https://www.greenpeace.org.uk/wp-content/uploads/2019/08/Government-Investment-for-a-greener-and-fairer-economy-FINAL-DESIGNED-28.08.19.pdf
https://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationprojections/datasets/localauthoritiesinenglandtable2https://www.ons.gov.uk/peoplepopulationandcommunity/populationandmigration/populationprojections/datasets/localauthoritiesinenglandtable2https://goodlife.leeds.ac.uk/paradox/https://www.greenpeace.org.uk/wp-content/uploads/2019/08/Government-Investment-for-a-greener-and-fairer-economy-FINAL-DESIGNED-28.08.19.pdfhttps://www.greenpeace.org.uk/wp-content/uploads/2019/08/Government-Investment-for-a-greener-and-fairer-economy-FINAL-DESIGNED-28.08.19.pdf
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Cities have a history of sharing and are hubs for so many types of exchange40, many of which are
informal and more communal. In line with the rise of the platform economy, these have been
increasingly supported by apps and websites, allowing people to share food that would be wasted,
swap or give away items, and share tools and other items that are expensive to buy and used
infrequently. Energy cooperatives and communities are emerging across the UK and across the world,
providing citizens with the chance to participate in and benefit from a clean energy system.
These sorts of initiatives have many benefits; particularly reducing the need for consumption, and
through that, reducing costs and greenhouse gas emissions. It will simply not be enough to substitute
all forms of current consumption with a more sustainable alternative; wider scale changes are
required. This will be vital for the city to reduce the imported emissions in the goods we buy, whilst
ensuring that people have access to the things they need. Citizens can also share time and knowledge,
learning new skills and doing more by working together. Such approaches can bring people together
and help reduce isolation.
40 https://liveablecities.org.uk/outcomes/little-book-sharing-city
https://liveablecities.org.uk/outcomes/little-book-sharing-city
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Integrating Sustainability and Co-Benefits Nottingham’s approach to sustainable carbon neutrality will
integrate carbon reduction with sustainability and an ambition
to identify and realise what are termed co-benefits. Co-benefits
are deliberate or incidental positive outcomes across a range of
other areas in addition to the central aim of an intervention. For
example, moving towards more active travel to tackle air-quality
also has benefits for health from exercise and mental wellbeing,
and reducing carbon emissions.
Building on work through the city’s Green Partnership, the wider
sustainability agenda has four key objectives (outlined below). Integrating these with the city’s carbon
neutral target highlights the holistic and joined up approach needed to deliver carbon reduction and
the benefits this can bring to life in Nottingham. A holistic approach is required, as these objectives,
along with the six additional themes, cannot be considered in isolation without potential unintended
consequences on other areas; this plan aims to reduce one-sided approaches to carbon reduction and
sustainability to increase alignment and integration with other strategies and policies in the city.
Improve air quality
Poor air quality affects childhood development, respiratory conditions in
all ages and has a variety of long-term health impacts. Carbon reduction
initiatives such as improvements in public transport will greatly improve
Nottingham’s air quality and vice-versa. Sustainability interventions such
as urban greening can simultaneously deliver improved air quality,
carbon reduction and many other co-benefits.
Improve the built environment to
enable sustainable communities Thoughtful enhancements to the built environment of Nottingham can simultaneously deliver a reduction in emissions and enhance the natural
environment whilst promoting safe and sustainable urban development,
helping to reduce crime, improving the sense of community and enabling
more sustainable living.
Enable a sustainable economy Nottingham is aiming to develop a resilient, carbon neutral and sustainable economy. This will see continued growth in local value and a
net-positive effect on natural capital whilst decoupling the carbon and
resource intensity of its output. Growth in the economy will be achieved
through use of innovation, embracing circular economy principles,
investing in skills and embedding smarter infrastructure.
Improving quality of life and
human wellbeing
Quality of life is at the heart of sustainable and attractive cities. It is
essential that carbon and environmental interventions not only don’t
worsen quality of life, but can improve wellbeing and other social factors.
The city will develop actions that help to improve health inequality,
promote healthier lifestyles, improve life chances and positively impact
wellbeing.
Carbon Reduction
Sustainability Themes
Co-Benefits
Sustainability Objectives
City Goals (SDGs)
21
A Holistic Approach The Council is proposing a new approach, integrating carbon reduction interventions in one
sustainable holistic approach. This will help to achieve multiple sustainability objectives and themes
simultaneously, alongside following a more efficient and robust process. It can also help avoid
unintended consequences, whereby addressing carbon reduction might worsen another
environmental or social concern adversely. There has to be a balance struck in this consideration. By
considering a holistic approach, rather than several single interventions, the combined cost can be
reduced, whilst the benefits increase. For example, undertaking all interventions at once would reduce
upfront costs and inconvenience to citizens, rather than closing a road once for retrofitting a house,
then again later to install solar panels or fit Electric Vehicle charging points.
Once outputs of the investment are determined, the combined benefits of a holistic approach can be
mapped to outcomes (e.g. carbon savings, energy savings, improved air quality, comfort effects), and
the benefits modelled across three different areas of public value: fiscal value, economic value, and
social value.
A Cost Benefit Analysis (CBA) methodology will be used to ensure a well-rounded approach to help
identify and build the case for suitable interventions that deliver more value to the city and its citizens.
This is a leading national approach to articulating the fiscal, economic and social value of interventions
and was adopted as supplementary guidance to HM Treasury’s Green Book (2014).
The CBA Approach is a process to assess, evaluate and compare different interventions. In contrast to
traditional approaches, the CBA approach enables the wider public value to be articulated, quantifying
economic benefits that individuals and businesses realise, and social benefits in terms of improved
health and wellbeing. This approach can consider the value for money offered by different
interventions that may otherwise not be easily compared. The toolkit allows for both a high-level
approach, prior to any local bespoke modelling, as well as later detailed modelling. This CBA approach
also considers the ‘business as usual’ case – what would have happened anyway, and what is actually
happening as a result of the investment. It also considers who experiences these benefits beyond just
those who have input investment. The CBA approach can be used at each stage of a project: Predictive
stage; Project delivery; Project completion, assisting with business cases, evaluation and monitoring.
A holistic approach to interventions for sustainable carbon neutrality Priority for Carbon Reduction
Sustainability Consideration and Assessment (CBA) Biodiversity Energy Food Mobility Resilience Resource The resulting suite of or modified interventions lead to outcomes which support the 4 Objectives
Wider outcomes
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The Benefits of Nottingham’s Approach Actions that reduce carbon emissions and alleviate sustainability issues can offer many additional
cross-cutting benefits. See below how the six themes and four objectives, which will be used in
Nottingham’s approach to carbon neutrality, will provide these benefits.
Objectives Improving Air
Quality
Improving quality of life and human
wellbeing
Enable a sustainable
economy
Improve the built environment
and sustainable communities
Biodiversity
and Natural
Capital
Raised awareness of the positive impact of biodiversity, which in turn leads to greater protection for species and habitats
Raise awareness of the positive impact of biodiversity when considering human health
Improve existing urban areas through open space and habitat creation, street tree planting and provision of allotments and community gardens.
Ensure development takes into account local ecology and maximises its diversity by maintaining/introducing ‘green’ routes/connections between development sites.
Energy
Reduce carbon emissions and cost for business
Improve housing stock to bring down energy demand and tackle fuel poverty
More energy efficient businesses, creating a leaner economy. Growth in energy services jobs.
Reduced energy needs/net energy production significantly reduces citizens at risk of fuel poverty and associated adverse impacts on health and educational outcomes.
Food
Local food production reducing food miles and air pollution
Tackling food poverty, diet related ill health and access to affordable healthy food
Promote a vibrant and diverse sustainable food economy; build community food knowledge, skills and resources, and reduce food waste
Wherever practicable ensure domestic properties have sufficient space and suitable orientation to grow plants / vegetables for enjoyment / consumption, also adding to local biodiversity
Mobility
Convert users to Ultra Low Emissions Vehicles e.g. public sector fleet to electric Mass public transport usage Active travel
Boosting walking and cycling to increase physical activity, mental health and improve air quality
Capturing opportunities of green technologies and sustainable business to boost local skills, training and employment
Reduce the need for privately owned vehicles and facilitate the use of Autonomous Electric Vehicle (EV) and ‘Mobility As A Service’ (MAAS) solutions. Better connectivity via pavements, footpaths and cycleways.
Resource
Reduction in emissions towards zero chimney. Reduced emission from waste
Provide education to promote recycling and responsible disposal of waste and re-use of Resources
Job creation through rearranging of supply chains moving towards a circular economy
Ensure developments include sufficient space for (highly segregated) waste storage whilst awaiting collection.
Resilience
Better air quality and reduced urban heat due to greening of the urban area
Assets that enhance the visual quality of the urban environment in between floods. Schemes designed using blue and green infrastructure to improve health and wellbeing
Better value for money from whole-life costs over the lifetime of the scheme. Attractive spaces for recreation and enjoyment in all areas including development zone
Examine the role of water for sustainable urban planning and design adaptive communities that are resilient to future changes in rainfall, flood risk, temperature and water availability
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Monitoring, Analysis and Insight It is essential that robust, transparent and timely measurement and monitoring is embedded in the
city to understand the progress towards the 2028 target, and to understand the broader sustainability
performance. Without monitoring and measurement, there can be no management of the challenges.
There is a need to build a better picture of the relationship between actions and their impacts, and to
understand the links between different sustainability areas/planetary boundaries, between
interventions and co-benefits, and, between carbon and other sustainability metrics.
The UN Sustainable Development Goals (SDGs) offer a common language and overarching framework
to enable increased responsibility, connection and delivery of sustainability. Many of the goals may
overlap with the aims of this Charter, demonstrating that sustainable development is wide reaching,
affecting every area of business, environment and society. The aim is to encourage wider cross cutting
collaboration using this internationally recognised approach and focusing on five key goals.
Nottingham can take advantage of new smarter systems and applications. Communications
infrastructure and services are transforming the way we live and work. Innovative applications can
enhance data collection and monitoring across the city. Smart city approaches change the way we
interact with and use such data, allowing for a more accurate, timely, frequent and widespread view
of what is happening. This builds the analytical and insight capabilities to better inform the
forthcoming action plans and programmes of work. The knowledge gained can affect behaviour
change, and, identify and resolve issues at an earlier stage in an agenda that is time critical. The Council
is already adopting new insight approaches and making use of the latest innovations in data
visualisation, mapping and open-data.
Climate Reporting As part of Nottingham City Council’s desire to be a leader on sustainability and climate change, the
City Council will renew and update its commitments to the Global Covenant of Mayors for Climate and
Energy41 and transparently disclose the city and Council performance and plans through the
international climate and resource reporting platform run by CDP42. This will be aided by the Council’s
work on the SCATTER project, which helps cities and local authorities disclose their data more
efficiently to common reporting frameworks. Through working openly as part of a larger international
group of cities, Nottingham will benefit from additional insight, opportunities and be seen as a place
trusted by investors and other organisations to deliver this agenda.
41 https://www.globalcovenantofmayors.org/cities/nottingham/ 42 https://www.cdp.net/en/cities
The Council will work with partners to understand Nottingham’s own contribution to
planetary boundaries, and the relationships in turn to Sustainable Development Goals
from these boundaries and the aims and objectives in this charter, to understand how
we get to a more sustainable good quality of life for all citizens.
https://www.globalcovenantofmayors.org/cities/nottingham/https://www.cdp.net/en/cities
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Strategies and Delivery A systemic shift is needed in the way we produce, distribute, share, store and use energy, in addition
to how we manage resources and travel across the city to mitigate climate change and reduce fuel
poverty and air quality. The council is ambitious to do more within the next ten years and beyond.
Well-designed policy can deliver strong results in tackling climate change. A number of new strategies,
policies and plans will be required to deliver the objectives of a sustainable decarbonisation of the
city. These include the new citywide Energy, Transport and Climate Change strategies, along with a
range of other documents that support and align sustainability
The City’s carbon neutral ambition is not isolated within future plans of the council. Many other plans
and pledges from the City Council Plan 2019-2023 will help deliver the 2028 commitment, whilst many
of the carbon reduction interventions will in return help to deliver new plans, highlighting that
Nottingham’s approach to sustainable carbon neutrality is mutually beneficial. Examples below
demonstrate how Nottingham becoming a carbon neutral city by 2028 aligns with the Council’s
strategic aims:
o Ensure all planning and development decisions within the city consider the environment and
sustainability
o Expand the tram and cycle network, giving people access to cleaner modes of transport and
a better way of life
o Protect 1000 more homes from the increased risk of flood events, working with the
Environment Agency
o Work experience and student placement schemes within NCC services helping to implement
carbon reduction initiatives, whilst aiming to retain more graduates within the city.
o Double the number of Nottingham residents who are Robin Hood Energy customers, which
provides a 100% renewable electricity
o Create suitable habitats for a bee friendly city
o Reduce plastic across the city with provision of water refill stations, alongside making the
Councils single use plastic free by 2023
o Plant at least 10,000 trees and work with local communities, to help expand and protect
Nottingham’s Green Flag parks
o Secure investment in Nottingham to develop the city as a centre of excellence for
sustainable/eco/renewable sector.
o Create 15,000 new jobs many opportunities will emerge in the clean, green low carbon
economy.
o Improve the sense of community and bring people together to improve their neighbourhoods
The overall carbon and sustainability vision will be enacted through a suite of policies and strategies
across directorates, as detailed at the outset of this document. Work has already begun in the City
Council to set out and take forward in detail the strategic direction for the city’s transport and energy
systems, and the overarching climate change agenda. The new strategies are key to success in
reducing greenhouse gas emissions and delivering on the sustainability objectives for Nottingham.
The Council is looking to develop these strategies, and their action plans, with key partners and
representation from citizens, communities, business and research. This is will be using engagement,
consultation and a process called co-creation. This co-creative process will be developed through the
Living Lab aspiration for the city to implement and deliver the strategies as it takes on key
sustainability and carbon challenges.
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Resilience and Climate Change Strategy To fulfil our ambition to become a just, sustainable and carbon neutral city, Nottingham must consider
how its citizens, community, buildings, transport, environment, infrastructure and businesses will
adapt and become resilient to unavoidable impacts of climate change. Many of these impacts are
already being experienced, such as the record breaking July heatwave in 2019. These events will likely
increase in size and frequency, particularly in the city, due to increasing population and the urban heat
island effect, even if temperatures are limited to a 1.5oC rise. The risks to individuals depends on their
exposure to events and environmental characteristics of where they live (exposure), social and
institutional context (ability to adapt) and their personal situation (sensitivity)43.
Adaptation and resilience will feature as a key element of the new Energy Strategy and Resilience and
Climate Change Strategy. A vulnerability assessment will be carried out to assess the City’s sensitivity
to current and potential future impacts, its adaptive capacity, and required adaptive measures. By
addressing climate change using a risk management process, the Council and the City can embed
adaptation approaches strategically and ensure business continuity.
This strategy will set out in more detail the overall climate change agenda. This includes:
A detailed picture of city emissions and relationships to actions
Modelling of scenarios for our carbon reduction trajectory and interventions
Understanding of climate vulnerability in the city, using UKCP18 climate projections
Adaptation and resilience plans
Refined co-benefits estimation